#!/bin/bash
#
# Copyright (C) 2010 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#      http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

#
# Usage: dex-preopt [options] path/to/input.jar path/to/output.odex
#
# This tool runs a host build of dalvikvm in order to preoptimize dex
# files that will be run on a device.
#
# The input may be any sort of jar file (including .apk files), as long
# as it contains a classes.dex file. Note that optimized versions of
# bootstrap classes must be created before this can be run on other files;
# use the "--bootstrap" option to do this.
#
# The "output.odex" file must not already exist.
#
# This is expected to be running in a user build environment, where
# "dexopt" is available on the host.
#
# Options:
#   --build-dir=path/to/out -- Specify where the base of the build tree is.
#     This is typically a directory named "out". If not specified, it is
#     assumed to be the current directory. The specified input and output
#     paths are taken to be relative to this directory.
#   --dexopt=path/to/dexopt -- Specify the path to the dexopt executable.
#     If unspecified, there must be a unique subdirectory of the build-dir
#     that looks like host/ARCH/bin which must contain dexopt.
#   --product-dir=path/to/product -- Specify the path, relative to the build
#     directory, where the product tree to be used is. This directory should
#     contain the boot classpath jar files. If not specified, then there
#     must be a unique directory in the build named "target/product/NAME",
#     and this is the directory that will be used.
#   --boot-dir=path/to/bootclasspath -- Specify the path, relative to the
#     product directory, of the directory where the boot classpath files
#     reside. If not specified, this defaults to "system/framework"
#   --boot-jars=list:of:jar:base:names -- Specify the list of base names
#     of bootstrap classpath elements, colon-separated. Order is significant
#     and must match the BOOTCLASSPATH that is eventually specified at
#     runtime on the device. This defaults to "core". However, this really
#     needs to match the target product's BOOTCLASSPATH, which, as of this
#     writing, doesn't have a super-strict way of being defined within the
#     build. You can find variations of it in different init.rc files under
#     system/core/rootdir or under product-specific directories.
#   --bootstrap -- Process the bootstrap classes. If this is specified,
#     then, instead of processing a specified input file, no other arguments
#     are taken, and what is processed is the entirety of the boot jar
#     list, in order.
#   --verify={none,remote,all} -- Specify what level of verification to
#     do. Defaults to "all".
#   --optimize={none,verified,all} -- Specify which classes to optimize.
#     Defaults to "verified".
#   --no-register-maps -- Indicate that the output should not contain
#     register maps. By default, register maps are created and included.
#   --uniprocessor -- Indicate that the output should target a uniprocessor.
#     By default, optimizations will be made that specifically target
#     SMP processors (which will merely be superfluous on uniprocessors).
#

# Defaults.
dexopt=''
buildDir='.'
productDir=''
bootDir='system/framework'
bootstrap='no'
doVerify='all'
doOptimize='verified'
doRegisterMaps='yes'
doUniprocessor='no'
bootJars='core'

optimizeFlags='' # built up from the more human-friendly options
bogus='no' # indicates if there was an error during processing arguments

# Iterate over the arguments looking for options.
while true; do
    origOption="$1"

    if [ "x${origOption}" = "x--" ]; then
        # A raw "--" signals the end of option processing.
        shift
        break
    fi

    # Parse the option into components.
    optionBeforeValue=`expr -- "${origOption}" : '--\([^=]*\)='`

    if [ "$?" = '0' ]; then
        # Option has the form "--option=value".
        option="${optionBeforeValue}"
        value=`expr -- "${origOption}" : '--[^=]*=\(.*\)'`
        hasValue='yes'
    else
        option=`expr -- "${origOption}" : '--\(.*\)'`
        if [ "$?" = '1' ]; then
            # Not an option.
            break
        fi
        # Option has the form "--option".
        value=""
        hasValue='no'
    fi
    shift

    # Interpret the option
    if [ "${option}" = 'build-dir' -a "${hasValue}" = 'yes' ]; then
        buildDir="${value}"
    elif [ "${option}" = 'dexopt' -a "${hasValue}" = 'yes' ]; then
        dexopt="${value}"
    elif [ "${option}" = 'boot-dir' -a "${hasValue}" = 'yes' ]; then
        bootDir="${value}"
    elif [ "${option}" = 'product-dir' -a "${hasValue}" = 'yes' ]; then
        productDir="${value}"
    elif [ "${option}" = 'boot-jars' -a "${hasValue}" = 'yes' ]; then
        bootJars="${value}"
    elif [ "${option}" = 'bootstrap' -a "${hasValue}" = 'no' ]; then
        bootstrap='yes'
    elif [ "${option}" = 'verify' -a "${hasValue}" = 'yes' ]; then
        doVerify="${value}"
    elif [ "${option}" = 'optimize' -a "${hasValue}" = 'yes' ]; then
        doOptimize="${value}"
    elif [ "${option}" = 'no-register-maps' -a "${hasValue}" = 'no' ]; then
        doRegisterMaps='no'
    elif [ "${option}" = 'uniprocessor' -a "${hasValue}" = 'no' ]; then
        doUniprocessor='yes'
    else
        echo "unknown option: ${origOption}" 1>&2
        bogus='yes'
    fi
done

# Check and set up the input and output files. In the case of bootstrap
# processing, verify that no files are specified.
inputFile=$1
outputFile=$2
if [ "${bootstrap}" = 'yes' ]; then
    if [ "$#" != '0' ]; then
        echo "unexpected arguments in --bootstrap mode" 1>&2
        bogus=yes
    fi
elif [ "$#" != '2' ]; then
    echo "must specify input and output files (and no more arguments)" 1>&2
    bogus=yes
fi

# Sanity-check the specified build directory.
if [ "x${buildDir}" = 'x' ]; then
    echo "must specify build directory" 1>&2
    bogus=yes
elif [ ! '(' -d "${buildDir}" -a -w "${buildDir}" ')' ]; then
    echo "build-dir is not a writable directory: ${buildDir}" 1>&2
    bogus=yes
fi

# Sanity-check the specified boot classpath directory.
if [ "x${bootDir}" = 'x' ]; then
    echo "must specify boot classpath directory" 1>&2
    bogus=yes
fi

# Sanity-check the specified boot jar list.
if [ "x${bootJars}" = 'x' ]; then
    echo "must specify non-empty boot-jars list" 1>&2
    bogus=yes
fi

# Sanity-check and expand the verify option.
if [ "x${doVerify}" = 'xnone' ]; then
    optimizeFlags="${optimizeFlags},v=n"
elif [ "x${doVerify}" = 'xremote' ]; then
    optimizeFlags="${optimizeFlags},v=r"
elif [ "x${doVerify}" = 'xall' ]; then
    optimizeFlags="${optimizeFlags},v=a"
else
    echo "bad value for --verify: ${doVerify}" 1>&2
    bogus=yes
fi

# Sanity-check and expand the optimize option.
if [ "x${doOptimize}" = 'xnone' ]; then
    optimizeFlags="${optimizeFlags},o=n"
elif [ "x${doOptimize}" = 'xverified' ]; then
    optimizeFlags="${optimizeFlags},o=v"
elif [ "x${doOptimize}" = 'xall' ]; then
    optimizeFlags="${optimizeFlags},o=a"
else
    echo "bad value for --optimize: ${doOptimize}" 1>&2
    bogus=yes
fi

# Expand the register maps selection, if necessary.
if [ "${doRegisterMaps}" = 'yes' ]; then
    optimizeFlags="${optimizeFlags},m=y"
fi

# Expand the uniprocessor directive, if necessary.
if [ "${doUniprocessor}" = 'yes' ]; then
    optimizeFlags="${optimizeFlags},u=y"
else
    optimizeFlags="${optimizeFlags},u=n"
fi

# Kill off the spare comma in optimizeFlags.
optimizeFlags=`echo ${optimizeFlags} | sed 's/^,//'`

# Error out if there was trouble.
if [ "${bogus}" = 'yes' ]; then
    # There was an error during option processing.
    echo "usage: $0" 1>&2
    echo '  [--build-dir=path/to/out] [--dexopt=path/to/dexopt]' 1>&2
    echo '  [--product-dir=path/to/product] [--boot-dir=name]' 1>&2
    echo '  [--boot-jars=list:of:names] [--bootstrap]' 1>&2
    echo '  [--verify=type] [--optimize=type] [--no-register-maps]' 1>&2
    echo '  [--uniprocessor] path/to/input.jar path/to/output.odex' 1>&2
    exit 1
fi

# Cd to the build directory, un-symlinkifying it for clarity.
cd "${buildDir}"
cd "`/bin/pwd`"

# If needed, find the default product directory.
if [ "x${productDir}" = 'x' ]; then
    productDir="`ls target/product`"
    if [ "$?" != '0' ]; then
        echo "can't find product directory" 1>&2
        exit 1
    elif [ `expr -- "${productDir}" : ".* "` != '0' ]; then
        echo "ambiguous product directory" 1>&2
        exit 1
    fi
    productDir="target/product/${productDir}"
fi

# Verify the product directory.
if [ ! '(' -d "${productDir}" -a -w "${productDir}" ')' ]; then
    echo "product-dir is not a writable directory: ${productDir}" 1>&2
    exit 1
fi

# Expand and verify the boot classpath directory. We add "/./" here to
# separate the build system part of the path from the target system
# suffix part of the path. The dexopt executable (deep inside the vm
# really) uses this to know how to generate the names of the
# dependencies (since we don't want the device files to contain bits
# of pathname from the host build system).
productBootDir="${productDir}/./${bootDir}"
if [ ! '(' -d "${productBootDir}" -a -w "${productBootDir}" ')' ]; then
    echo "boot-dir is not a writable directory: ${productBootDir}" 1>&2
    exit 1
fi

# Find the dexopt binary if necesasry, and verify it.
if [ "x${dexopt}" = 'x' ]; then
    dexopt="`ls host/*/bin/dexopt`"
    if [ "$?" != '0' ]; then
        echo "can't find dexopt binary" 1>&2
        exit 1
    elif [ `expr -- "${dexopt}" : ".* "` != '0' ]; then
        echo "ambiguous host directory" 1>&2
        exit 1
    fi
fi

if [ ! -x "${dexopt}" ]; then
    echo "dexopt binary is not executable: ${dexopt}" 1>&2
    exit 1
fi

# Expand the bootJars into paths that are relative from the build
# directory, maintaining the colon separators.
BOOTCLASSPATH=`echo ":${bootJars}" | \
    sed "s!:\([^:]*\)!:${productBootDir}/\1!g" | \
    sed 's/^://'`
export BOOTCLASSPATH

if [ "${bootstrap}" = 'yes' ]; then
    # Split the boot classpath into separate elements and iterate over them,
    # processing each, in order.
    elements=`echo "${BOOTCLASSPATH}" | sed 's/:/ /g'`

    for inputFile in $elements; do
        echo "Processing ${inputFile}" 1>&2
        outputFile="`dirname ${inputFile}`/`basename ${inputFile} .jar`.odex"
        "${dexopt}" --preopt "${inputFile}" "${outputFile}" "${optimizeFlags}"
        status="$?"
        if [ "${status}" != '0' ]; then
            exit "${status}"
        fi
    done
else
    echo "Processing ${inputFile}" 1>&2
    bootJarFile=`expr -- "${inputFile}" : "${productDir}/${bootDir}/\(.*\)"`
    if [ "x${bootJarFile}" != 'x' ]; then
        # The input file is in the boot classpath directory, so it needs
        # to have "/./" inserted into it (see longer description above).
        inputFile="${productBootDir}/${bootJarFile}"
    fi

    "${dexopt}" --preopt "${inputFile}" "${outputFile}" "${optimizeFlags}"

    status="$?"
    if [ "${status}" != '0' ]; then
        exit "${status}"
    fi
fi

echo "Done!" 1>&2
